Xenon and isoflurane improved biventricular function during right ventricular ischemia and reperfusion

Background: Although anesthetics have some cardioprotective properties, these benefits are often counterbalanced by their negative inotropic effects. Xenon, on the other hand, does not influence myocardial contractility. Thus, xenon may be a superior treatment for the maintenance of global hemodynam...

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Published inActa anaesthesiologica Scandinavica Vol. 54; no. 4; pp. 470 - 478
Main Authors HEIN, M., ROEHL, A. B., BAUMERT, J. H., BLEILEVENS, C., FISCHER, S., STEENDIJK, P., ROSSAINT, R.
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.04.2010
Blackwell
Subjects
Anesthesia
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Anesthetics, Inhalation - therapeutic use
Animals
Biological and medical sciences
Cardiac Output - drug effects
Cardiac Output - physiology
Data Interpretation, Statistical
Isoflurane - pharmacology
Medical sciences
Myocardial Contraction - drug effects
Myocardial Contraction - physiology
Myocardial Reperfusion Injury - physiopathology
Myocardial Reperfusion Injury - prevention & control
Natriuretic Peptide, Brain - blood
Natriuretic Peptide, Brain - genetics
Reverse Transcriptase Polymerase Chain Reaction
RNA, Messenger - biosynthesis
RNA, Messenger - genetics
Swine
Ventricular Dysfunction, Right - drug therapy
Ventricular Dysfunction, Right - physiopathology
Ventricular Function, Left - physiology
Xenon - therapeutic use
Volatile compound
General anesthetic
Ischemia reperfusion
Xenon
Anesthesia
Isoflurane
Halogen Organic compounds
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Abstract Background: Although anesthetics have some cardioprotective properties, these benefits are often counterbalanced by their negative inotropic effects. Xenon, on the other hand, does not influence myocardial contractility. Thus, xenon may be a superior treatment for the maintenance of global hemodynamics, especially during right ventricular ischemia, which is generally characterized by a high acute complication rate. Methods: The effects of 70 vol% xenon and 0.9 vol% isoflurane on biventricular function were assessed in a porcine model (n=36) using the conductance catheter technique, and the expression of the type B natriuretic peptide (BNP) gene was measured. The animals underwent 90 min of right ventricular ischemia followed by 120 min of reperfusion. A barbiturate‐anesthetized group was included as a control. Results: Cardiac output was compromised in unprotected animals during ischemia by 33±18% and during reperfusion by 53±17%. This was mainly due to impaired contractility in the left ventricle (LV) and increased stiffness. Isoflurane attenuated the increase in stiffness and resulted in a higher preload. In contrast, xenon increased the right ventricular afterload, which was compensated by an increase in contractility. Its effects on diastolic function were less pronounced. Upregulation of BNP mRNA expression was impeded in the remote area of the LV by both isoflurane and xenon. Conclusions: Xenon and isoflurane demonstrated equipotent effects in preventing the hemodynamic compromise that is induced by right ventricular ischemia and reperfusion, although they acted through somewhat differential inotropic and vasodilatory effects.
AbstractList BACKGROUNDAlthough anesthetics have some cardioprotective properties, these benefits are often counterbalanced by their negative inotropic effects. Xenon, on the other hand, does not influence myocardial contractility. Thus, xenon may be a superior treatment for the maintenance of global hemodynamics, especially during right ventricular ischemia, which is generally characterized by a high acute complication rate.METHODSThe effects of 70 vol% xenon and 0.9 vol% isoflurane on biventricular function were assessed in a porcine model (n=36) using the conductance catheter technique, and the expression of the type B natriuretic peptide (BNP) gene was measured. The animals underwent 90 min of right ventricular ischemia followed by 120 min of reperfusion. A barbiturate-anesthetized group was included as a control.RESULTSCardiac output was compromised in unprotected animals during ischemia by 33+/-18% and during reperfusion by 53+/-17%. This was mainly due to impaired contractility in the left ventricle (LV) and increased stiffness. Isoflurane attenuated the increase in stiffness and resulted in a higher preload. In contrast, xenon increased the right ventricular afterload, which was compensated by an increase in contractility. Its effects on diastolic function were less pronounced. Upregulation of BNP mRNA expression was impeded in the remote area of the LV by both isoflurane and xenon.CONCLUSIONSXenon and isoflurane demonstrated equipotent effects in preventing the hemodynamic compromise that is induced by right ventricular ischemia and reperfusion, although they acted through somewhat differential inotropic and vasodilatory effects.
Background: Although anesthetics have some cardioprotective properties, these benefits are often counterbalanced by their negative inotropic effects. Xenon, on the other hand, does not influence myocardial contractility. Thus, xenon may be a superior treatment for the maintenance of global hemodynamics, especially during right ventricular ischemia, which is generally characterized by a high acute complication rate. Methods: The effects of 70 vol% xenon and 0.9 vol% isoflurane on biventricular function were assessed in a porcine model ( n =36) using the conductance catheter technique, and the expression of the type B natriuretic peptide ( BNP ) gene was measured. The animals underwent 90 min of right ventricular ischemia followed by 120 min of reperfusion. A barbiturate‐anesthetized group was included as a control. Results: Cardiac output was compromised in unprotected animals during ischemia by 33±18% and during reperfusion by 53±17%. This was mainly due to impaired contractility in the left ventricle (LV) and increased stiffness. Isoflurane attenuated the increase in stiffness and resulted in a higher preload. In contrast, xenon increased the right ventricular afterload, which was compensated by an increase in contractility. Its effects on diastolic function were less pronounced. Upregulation of BNP mRNA expression was impeded in the remote area of the LV by both isoflurane and xenon. Conclusions: Xenon and isoflurane demonstrated equipotent effects in preventing the hemodynamic compromise that is induced by right ventricular ischemia and reperfusion, although they acted through somewhat differential inotropic and vasodilatory effects.
Although anesthetics have some cardioprotective properties, these benefits are often counterbalanced by their negative inotropic effects. Xenon, on the other hand, does not influence myocardial contractility. Thus, xenon may be a superior treatment for the maintenance of global hemodynamics, especially during right ventricular ischemia, which is generally characterized by a high acute complication rate. The effects of 70 vol% xenon and 0.9 vol% isoflurane on biventricular function were assessed in a porcine model (n=36) using the conductance catheter technique, and the expression of the type B natriuretic peptide (BNP) gene was measured. The animals underwent 90 min of right ventricular ischemia followed by 120 min of reperfusion. A barbiturate-anesthetized group was included as a control. Cardiac output was compromised in unprotected animals during ischemia by 33+/-18% and during reperfusion by 53+/-17%. This was mainly due to impaired contractility in the left ventricle (LV) and increased stiffness. Isoflurane attenuated the increase in stiffness and resulted in a higher preload. In contrast, xenon increased the right ventricular afterload, which was compensated by an increase in contractility. Its effects on diastolic function were less pronounced. Upregulation of BNP mRNA expression was impeded in the remote area of the LV by both isoflurane and xenon. Xenon and isoflurane demonstrated equipotent effects in preventing the hemodynamic compromise that is induced by right ventricular ischemia and reperfusion, although they acted through somewhat differential inotropic and vasodilatory effects.
Background: Although anesthetics have some cardioprotective properties, these benefits are often counterbalanced by their negative inotropic effects. Xenon, on the other hand, does not influence myocardial contractility. Thus, xenon may be a superior treatment for the maintenance of global hemodynamics, especially during right ventricular ischemia, which is generally characterized by a high acute complication rate. Methods: The effects of 70 vol% xenon and 0.9 vol% isoflurane on biventricular function were assessed in a porcine model (n=36) using the conductance catheter technique, and the expression of the type B natriuretic peptide (BNP) gene was measured. The animals underwent 90 min of right ventricular ischemia followed by 120 min of reperfusion. A barbiturate‐anesthetized group was included as a control. Results: Cardiac output was compromised in unprotected animals during ischemia by 33±18% and during reperfusion by 53±17%. This was mainly due to impaired contractility in the left ventricle (LV) and increased stiffness. Isoflurane attenuated the increase in stiffness and resulted in a higher preload. In contrast, xenon increased the right ventricular afterload, which was compensated by an increase in contractility. Its effects on diastolic function were less pronounced. Upregulation of BNP mRNA expression was impeded in the remote area of the LV by both isoflurane and xenon. Conclusions: Xenon and isoflurane demonstrated equipotent effects in preventing the hemodynamic compromise that is induced by right ventricular ischemia and reperfusion, although they acted through somewhat differential inotropic and vasodilatory effects.
Author ROSSAINT, R.
HEIN, M.
STEENDIJK, P.
BLEILEVENS, C.
BAUMERT, J. H.
ROEHL, A. B.
FISCHER, S.
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Keywords Volatile compound
General anesthetic
Ischemia reperfusion
Xenon
Anesthesia
Isoflurane
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2004; 44
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2002; 94
2000; 46
1998; 338
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2000; 91
2008; 103
2008; 52
2007; 51
1999; 100
2005; 49
1998; 87
2007; 35
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2002; 49
2004; 99
2006; 82
1987; 66
1984; 70
2009; 53
2002; 40
1988; 69
2002; 88
1997; 78
1996; 82
1996; 85
2007; 40
2001; 56
1999; 91
2001; 35
2001; 95
2001; 51
2008; 371
2006; 100
2003; 362
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Snippet Background: Although anesthetics have some cardioprotective properties, these benefits are often counterbalanced by their negative inotropic effects. Xenon, on...
Although anesthetics have some cardioprotective properties, these benefits are often counterbalanced by their negative inotropic effects. Xenon, on the other...
Background: Although anesthetics have some cardioprotective properties, these benefits are often counterbalanced by their negative inotropic effects. Xenon, on...
BACKGROUNDAlthough anesthetics have some cardioprotective properties, these benefits are often counterbalanced by their negative inotropic effects. Xenon, on...
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StartPage 470
SubjectTerms Anesthesia
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Anesthetics, Inhalation - therapeutic use
Animals
Biological and medical sciences
Cardiac Output - drug effects
Cardiac Output - physiology
Data Interpretation, Statistical
Isoflurane - pharmacology
Medical sciences
Myocardial Contraction - drug effects
Myocardial Contraction - physiology
Myocardial Reperfusion Injury - physiopathology
Myocardial Reperfusion Injury - prevention & control
Natriuretic Peptide, Brain - blood
Natriuretic Peptide, Brain - genetics
Reverse Transcriptase Polymerase Chain Reaction
RNA, Messenger - biosynthesis
RNA, Messenger - genetics
Swine
Ventricular Dysfunction, Right - drug therapy
Ventricular Dysfunction, Right - physiopathology
Ventricular Function, Left - physiology
Xenon - therapeutic use
Title Xenon and isoflurane improved biventricular function during right ventricular ischemia and reperfusion
URI https://api.istex.fr/ark:/67375/WNG-MV6KP2ZS-7/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1399-6576.2009.02116.x
https://www.ncbi.nlm.nih.gov/pubmed/19839950
https://search.proquest.com/docview/733913720
Volume 54
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